[Objective]To evaluate the effect of the tissue engineered nerve for bridging and repairing verve defect.[Method]Human bone marrow stromal cells(hBMSCs) were purified with centrifugate method,cultured in DMEM,induced with ATRA,BDGF and affected by heregulin,forsholin,bFGF(basic fibroblast growth factor),and PDGF(platelet-derived growth factor) of hBMSCs).The protein positive rate of S100 and GFAP of hBMSCs were determined by immunohistochmical staining.The tissue engineered nerves were constructed with hBMSCs mixed with extra-cellular matrix(ECM) and polylactic acid(PLA) tube.A 10mm defect of sciatic nerve was created in 24 Wistar mouse right limbs and ramdonly divided into three groups: group A(n=8),nerve defects bridged with polylactic acid(PLA) tube containing induced Schwann cells mixed with ECM,group B(n=8),with PLA tube containing ECM,group C(n=8) with autologous nerve graft.Functional recovery of nerve was examined by electrophysiological method and histological changes were examined with histological stainning of nerve and measurement quantity of new axon.[Result]The Schwann cells were presented at 12 wks after operation.The histologic and functional recovery of nerves of group A and group C were better than those of group B.the showed significant difference between group A or group C and group B and no significant difference between group A and group C.(PAB=0.021,PBC=0.001,PAC=0.065).Degradation of PLA tubes showed in group A and group B.[Conclusion]Schwann cells could be induced from hBMSCs,and the tissue engineered nerves,which were contructed by induced Schwann cells mixed with ECM and PLA tube,could be used to bridged and repair the peripheral nerve defect.